Extrasolar Planets What are the odds?

Similar documents
Extraterrestrial Life Group Discussion

Lecture Outlines. Chapter 28. Astronomy Today 8th Edition Chaisson/McMillan Pearson Education, Inc.

Detection of Earth-like planets


NSCI EXTRASOLAR PLANETS (CONTINUED) AND THE DRAKE EQUATION. Dr. Karen Kolehmainen Department of Physics, CSUSB

The Quest for Extraterrestrial Signals. Ron Maddalena National Radio Astronomy Observatory Green Bank, WV

The Search for Extra-terrestrial. Is there anybody out there?

Astrobiology: The Semester in Review

Search for Extra-Terrestrial Intelligence

Intelligent Life in the Universe

Physics can only take us so far!

Honors 228 Astrobiology w/ Dr. H. Geller Meeting #2 - Physical Origins. Presented 21 January 2010

Searching for Life: Chapter 20: Life on Other Worlds. Life in the Universe. Earliest Fossils. Laboratory Experiments.

Nov 17, 2003 Astronomy 100 Fall _tips_ html

Simon P. Balm Astro 5 Test #3 Sample Questions

ASTR 380 The Drake Equation

ASTR 380 The Drake Equation

Astronomy 330 HW 2. Outline. Presentations. ! Kira Bonk ascension.html

The Jamie Drake Equation

Part I---Introduction: planets, and habitable planets

Astronomy 330 HW 2. Outline. Presentations. ! Alex Bara

Sex in Space: Astronomy 330 TR Astronomy Building. Outline. The Planet Eris? What is a planet?

Copyright 2009 Pearson Education, Inc. Life in the Universe

Chapter 24: Life in the Universe

ASTRONOMY 202 Spring 2007: Solar System Exploration. Instructor: Dr. David Alexander Web-site:

Habitability Outside the Solar System. A discussion of Bennett & Shostak Chapter 11 HNRS 228 Dr. H. Geller

Measuring Distances to Galaxies. Galaxies in Motion. Hubble s Law. Galaxy Redshifts. Type Ia Supernovae. Supernovae are Good Standard Candles

The Date Equation. Estimate the number of people at a party who are willing to go out with you afterwards. From David Grinspoon: Lonely Planets

Nucleus Hydrogen nucleus. hydrogen. helium

Ultimate Events. Galaxy clustering in ever deeper surveys. Models of universe and its fates

The Search for Extraterrestrial Intelligence

Expected Value - Revisited

Life in the Universe. Key Concepts: Lecture 35: Admin. 11/21/17. All Formulae (for final):

Sex in Space: Astronomy 330 TR English Building. Outline. Astro 330: Sex in Space? Be Careful of Science. ! The Drake equation

What does Dark Matter have to do with the Big Bang Theory?

Cosmology Overview (so far): Cosmology Overview (so far): The Age of the Universe. The Big Bang. The Age of the Universe

4 Decoding the Arecibo Message

Sociological Factors. Putting it all Together: How far away? How many stars to search?

Star. Chapter 1: Our Place in the Universe. 1.1 A Modern View of the Universe Our goals for learning:

Formation of the Universe & What is in Space? The Big Bang Theory and components of the Universe

ASTR-1020: Astronomy II Course Lecture Notes Section XII

SUPERNOVA! What is a supernova? How dangerous are they to life on Earth? How would the universe be different without supernovae?

WHERE ARE THEY? The Fermi Paradox

Primary KS1 1 VotesForSchools2018

The Search for Extraterrestrial Intelligence (SETI)

Fusion in first few minutes after Big Bang form lightest elements

A New Empirical Constraint on the Prevalence of Technological Species in the Universe. - A. Frank 1 & W.T. Sullivan, III 2

Planet discovery accounced Feb. 3

Fusion in first few minutes after Big Bang form lightest elements

Start with known facts and reasonable guesses. More on order of magnitude Astronomy How many piano tuners are there in Boulder County?

Astronomy 330 HW 2. Presentations. Outline. ! Nicholas Langhammer esp_sociopol_washingtondc01.

Habitable Planets: Part 1 Estimating n p "

The Search for Extraterrestrial Intelligence

Young Solar-like Systems

Chapter 24 Life in the Universe. Earliest Life Forms. When did life arise on Earth? Fossils in Sedimentary Rock. Fossils in Sedimentary Rock

-- Lewis Carroll, Alice in Wonderland

Where are they (E.T.I.) anyway?

CONNECTIONS to the COSMOS: the search for life beyond Earth

Stars. 1.1 A Modern View of the Universe. What Objects Do We Find in The Universe? 8/12/2010. Our goals for learning:

Star. Planet. Chapter 1 Our Place in the Universe. 1.1 A Modern View of the Universe Our goals for learning: What is our place in the universe?

Astronomy 1504 Section 10 Final Exam Version 1 May 6, 1999

What does Dark Matter have to do with the Big Bang Theory?

What is Astrobiology?

Guesstimation: The Art of Getting About the Right Answer

V. Astronomy Section

ASTR 380: Life in the Universe - Astrobiology Professor Sylvain Veilleux

What makes a planet habitable?

What does Dark Matter have to do with the Big Bang Theory?

Modeling the Universe: Create Your Own Cosmos

N = R *! f p! n e! f l! f i! f c! L

Light. Transverse electromagnetic wave, or electromagnetic radiation. Includes radio waves, microwaves, infra-red, visible, UV, X-rays, and gamma rays

Notes 9: Extrasolar Planets and Exo-biology

The evolution of a Solar-like system. Young Solar-like Systems. Searching for Extrasolar Planets: Motivation

Cosmic Landscape Introduction Study Notes

Astronomy 330. Presentations. Outline

Final Exam. 12:30 2:30 pm, Friday, May 6th, in this room. Written Questions covering all the material from this semester.

Questions for Dr. Harold Geller

A supernova is the explosion of a star. It is the largest explosion that takes place in space.

Life on Other Worlds: The Drake Equation Author: Meagan Morscher GK-12 Reach for the Stars Fellow, Northwestern University

A Recipe for Life on Earth... and elsewhere?

Chapter 1 Lecture. The Cosmic Perspective Seventh Edition. A Modern View of the Universe Pearson Education, Inc.

N = R * f p n e f l f i f c L

MODERN ASTROPHYSICS PCES 4.55

AST 205. Lecture 23. December 8, 2003 SETI, Interstellar Travel and the Fermi Paradox. Assignments for week of Dec 8

Life Carbon+Water based?

ET: Astronomy 230 Section 1 MWF Astronomy Building. Outline. Presentations. Presentations. HW #2 is due on Friday First Presentations on

Beginning of Universe

What is a black hole s event horizon? What is a black hole s Schwarzschild radius? What is a black hole s singularity? How do they change with mass?

Lecture 40: SETI. Astronomy Winter This lecture is about SETI, the Search for Extra- Terrestrial Intelligence.

Copyright 2009 Pearson Education, Inc. Life in the Universe

PHYS 414 Problem Set 3: Aliens and cycles

GraspIT Questions AQA GCSE Physics Space physics

The Drake Equation. L, average lifetime of civilizations T, age of Galaxy (10 10 years) L/T gives the fraction of civilizations that currently exist.

Astronomy. Catherine Turon. for the Astronomy Working Group

The Universal Context of Life

1. Four different processes are described in List A. The names of these processes are given in List B.

Astronomy 1 Fall 2016

Newly discovered planet may support life, scientists say

n p = n e for stars like Sun f s = fraction of stars with suitable properties

MODERN ASTROPHYSICS PCES 5.8

Transcription:

Honors 228: Astrobiology using Bennett and Shostak Chapter 12 overview Spring 2007 Dr. H. Geller What s talked about The Drake Equation (12.1) The Question of Intelligence (12.2) Searching for Intelligence (12.3) The Process of Science in Action: UFOs and Aliens on Earth (12.4) It s a Big Galaxy in a Big Universe Extrasolar Capability Review Extrasolar Planets What are the odds? Drake Equation Odds of planets Odds of Earth-like planet Odds of life Odds of civilization Longevity of civilization

The Drake Equation N = R f p n p f l f i f t L f i = fraction of those life-bearing planets on which intelligence evolves f t = fraction of those intelligent-life planets that develop technological society L = average lifetime of a technologically competent civilization. The Rate of Star Formation We can estimate the average number of stars forming each year in the Galaxy simply by noting that at least 100 billion stars now shine in the Milky Way. Dividing this number by the 10-billion-year lifetime of the Galaxy, we obtain a formation rate of 10 stars per year. This may be an overestimate because we think that fewer stars are forming now than formed at earlier epochs of the Galaxy, when more interstellar gas was available. However, we do know that stars are forming today, and our estimate does not include stars that formed in the past and have since exploded, so our value of 10 stars per year is probably reasonable when averaged over the lifetime of the Milky Way. HST has provided us with a value of 20 stars per year. Fraction of Stars with Planets Accepting the condensation theory and its consequences, and without being either too conservative or naively optimistic, we assign a value near 1 to this term - that is, we believe that essentially all stars have planetary systems. A caveat: Note that extrasolar planets have very different characteristics than the planets of the Solar System. The Number of Habitable Planets Per Star Estimate 1 planet in 10 would be a habitable planet Eliminate planets around the short lived stars Most likely candidates are stars somewhat similar to the Sun (F,G,K) Long lived; fairly large habitable zone This means (combining probabilities) the number of habitable planets per star is between 0.1 and 0.01 Fraction on which Life arises If we accept the mediocrity principle then this fraction is 1. It could be as low as 0 if one believes life is rare. Intelligent Life One school of thought maintains that, given enough time, intelligence is inevitable. In this view, assuming that natural selection is a universal phenomenon, at least one organism on a planet will always rise to the level of "intelligent life." If this is correct, then the fifth term in the Drake equation equals or nearly equals 1. Others argue that there is only one known case of intelligence, and that case is life on Earth. For 2.5 billion years from the start of life about 3.5 billion years ago to the first from the start of life about 3.5 billion years ago to the first appearance of multicellular organisms about 1 billion years ago life did not advance beyond the one-celled stage. This would mean the fraction is close to 0.

Technology The anthropomorphic view: if we do it every one else will so the fraction is 1. The view of the dolphins: show me the fish. The fraction is close to 0. Lifetime of Civilizations Guess We blow ourselves up: 75 years We do not blow ourselves up your guess is as good as mine > 100 years or > 100000 years? Putting in the Numbers Unless one is pessimistic the fractions are all of order 1 so we get N = 1 * Lifetime So we get 10's to 1000's of civilizations But now consider the distances between the civilizations!!! Looking for Life Artifacts aliens here? Probes Viking, Voyager, Pioneer Signals radio optical other What is intelligent life? How do you measure intelligence? IQ? EQ? Are humans only intelligent species on Earth? Great apes and chimpanzees do they have a sense of I Cosmic Evolution?

Where look? The Water Hole Past Searches How Far Can We Go? One Form of Communication Another Form of Communication

Is this really how it s done? One Way It s Done Arecibo Message What does it mean Decoded Arecibo Message

2024 © sciencedocbox.com Privacy Policy | Terms of Service | Feedback